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Nitrogen-doped nanoporous carbon materials have been prepared by a template carbonization method, in which diphenylcarbazide serves as carbon/nitrogen source and Mg(NO3 2·6H2O powder as hard template, respectively.
Using Ca(OH 2 or Mg(OH 2 as template by a template carbonization route provides a simple but feasible protocol to achieve nanoporous carbons with precisely controlled architecture and hierarchical porosities.
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In this work, nitrogen-containing nanoporous carbon with spherical network structure have been prepared using a template carbonization method, in which diphenylguanidine serves as carbon precursor, commercially available CaCO3 as template, and azodicarbonamide as nitridation agent.
A series of highly nanoporous carbons have been prepared by converting benzoate metal complexes, including zinc benzoate, magnesium benzoate and aluminium benzoate through a template carbonization process.
In this work, polytetrafluoroethene waste has been successfully converted into nanoporous carbon spheres by a simple template carbonization method, using CaCO3 as hard template.
In this work, using folic acid as a carbon/nitrogen precursor and Zn(NO3 2·6H2O as the template, largely nitrogenated (12.4%) and highly porous carbon material has been produced by a synchronous template carbonization and nitridation approach.
A rational template carbonization method has been implemented to produce nanoporous carbon as high performance supercapacitor electrode material.
We herein demonstrate a rational template carbonization approach to convert waste polyvinyl chloride into nanoporous carbon, in which inexpensive Mg(OH 2 serves as hard template.
In this work, a simple template carbonization method has been developed to produce nitrogen-containing nanoporous carbon from diphenylcarbazide, using Mg(OH 2 as hard template.
A valid and facile template carbonization route for producing nanoporous carbons with hierarchical porosities has been implemented by using thiocarbanilide as carbon/nitrogen precursor, and commercially available Mg(OH 2 or Ca(OH 2 powder as template.
A series of nitrogen doped porous carbons are prepared using a simple and economic template carbonization method, in which nano-CaCO3 and ethylenediamine (EDA) and carbon tetrachloride (CTC) serve as a template and nitrogen-containing carbon precursors, respectively.
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